Proton-Blocking Anion-Exchange Membranes for Efficient Lithium Hydroxide Recovery by Bipolar Membrane Electrodialysis
Ji-Hyeon Lee, Moon-Sung Kang

TL;DR
This paper introduces a new type of membrane that improves the efficiency of recovering lithium hydroxide using electrodialysis.
Contribution
A novel composite anion-exchange membrane with a proton-blocking layer is developed to enhance bipolar membrane electrodialysis efficiency.
Findings
The composite membrane balances conductivity and proton-blocking performance by adjusting diamine ratios.
The optimal membrane outperforms commercial proton-blocking membranes in conductivity and proton-blocking.
The membrane improves energy and current efficiency in lithium hydroxide recovery via BPED.
Abstract
In bipolar membrane electrodialysis (BPED), proton transport through the anion-exchange membrane (AEM) is a major factor that reduces overall process efficiency. In this study, we propose a composite AEM incorporating a proton-blocking layer that combines strongly basic and weakly basic functional groups on top of a strongly basic AEM, providing proton-blocking capability while minimizing degradation of membrane conductivity. The proton-blocking layer is prepared by reacting brominated poly(phenylene oxide) (BPPO) with diamines having different alkyl chain lengths, namely N,N,N′,N′-tetramethyl-1,6-hexanediamine (TMHDA), N,N,N′,N′-tetramethyl-1,3-propanediamine (TMPDA), and N,N,N′,N′-tetramethylethylenediamine (TMEDA). When TMHDA, which has the longest alkyl chain, is introduced into PPO, the resulting membrane exhibits high conductivity but low proton-blocking performance. In contrast,…
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Taxonomy
TopicsMembrane-based Ion Separation Techniques · Fuel Cells and Related Materials · Advanced Battery Materials and Technologies
